提出通过降低计算机机箱内整体冷却空气温度达到热管理.类似日常生活用的普通空调,提出一种整体式中尺度空调系统来调节计算机内温度,并在实验原型上做了大量概念性的实验.结果表明,计算机机箱内环境空气温度可以从54.7℃降低到32.7℃.说明此种方法可以在不改变计算机任何部件的情况下大大提高计算机系统的冷却效果,为热管理设计的这一特定中尺度空调机非常经济且易操作,在计算机产业上将会得到广泛的应用.如同空调系统的末端一样,此整体式空调机可同时拥有多个蒸发器以带走多个发热元件产生的热量;蒸发器还可以直接扣在中央处理器(CPU)和显卡等芯片的表面以冷却芯片.本文提出的主动冷却系统在调节局部热环境时可灵活调整.例如如果空气冷却系统中有两个蒸发器时,就可用一个冷却机箱内环境温度,另一个直接扣在CPU上.本文提供的概念有望为个人笔记本电脑、台式机和大型计算机提供一种高效的冷却方法,也可应用在其他产热率较高的很多场合. Proposed to reduce the temperature of the cooling air in the computer chassis to achieve thermal management similar to ordinary air conditioning for everyday use, proposed a monolithic mesoscale air conditioning system to regulate the temperature inside the computer, and a large number of conceptual experiments on the experimental prototype. The results show that the temperature of the ambient air in the computer case can be reduced from 54.7 ℃ to 32.7 ℃, which shows that this method can greatly improve the cooling performance of the computer system without changing any part of the computer. This particular mesoscale design for thermal management Air-conditioners are economical and easy-to-use and will find widespread use in the computer industry. Like the end of an air-conditioning system, the unitary air conditioner can have multiple evaporators simultaneously to remove the heat generated by multiple heating elements; The device can also be directly snapped onto the surface of chips such as the CPU and graphics card to cool the chip.The active cooling system proposed in this paper can be flexibly adjusted when adjusting the local thermal environment.For example, if there are two evaporators in the air cooling system , You can use one to cool the chassis ambient temperature and the other one directly to the CPU. The concepts provided in this article Desirable to provide an efficient for personal laptops, desktop computers, and large cooling method may also be applied in other high heat generating rate on many occasions.